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Query: UMLS:C0242706 (hyperoxia)
 5,219 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A review of anatomical and biochemical responses of the lung to high concentrations of oxygen leads us to postulate a biphasic adaptive response. The early phase entails a defense against life-threatening pulmonary edema engendered by destruction of oxygen susceptible cells forming most of the air-blood interface. This defense is brought about by type II alveolar cell replication to reform a continuous epithelial layer in the alveoli; its success would depend upon the rapidly with which this continuity can be reestablished. Factors favoring a successful defense would include an initial large population of type II cells or the ability of type II cells to divide fast enough to reestablish continuity before of oxygen-sensitive cells (type 1 alveolar epithelial and endothelial cells) proceeds to fatal pulmonary edema; both conditions probably exist in young animals, which are known to be more resistant to hyperoxia than old animals. The second phase of adaptation would require the development of increased tolerance of previously susceptible cells to continued exposure to high oxygen concentrations to prevent their total destruction. We postulate that here the development of new biochemical defenses or the augmentation of those previously present would play a major role.
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PMID:Biochemical and anatomical adaptation of the lung to oxygen-induced injury. 2 61

Prolonged exposure to hyperoxia can result in significant lung injury and has been associated with the development of bronchopulmonary dysplasia. Leukotrienes (LT) recruit polymorphonuclear leukocytes (PMN) to the lung, increase vascular permeability, and have therefore been postulated to play a role in the pathogenesis of hyperoxic lung injury. This study investigates ICI 198,615 (ICI), an LTD4 and LTE4 receptor antagonist in preventing hyperoxic lung injury in newborn rabbits. Matched littermates of 7-day-old rabbits received ICI (0.1 or 1.0 microM/kg/h) or vehicle alone, were exposed to greater than 95% O2, and sacrificed after 48, 72, 84 and 96 h of exposure. Bronchoalveolar alveolar lavage fluid (BAL) of the left lung was analyzed for white cell count, differential, absolute number of PMNs, total protein, and cyclooxygenase products 6-keto-PGF1 alpha, and thromboxane B2. Lung water was quantified utilizing the right lung. Results demonstrated no significant differences between the ICI groups or between the ICI groups and controls. In conclusion, the administration of the LTD4 and LTE4 receptor antagonist ICI 198,615 was insufficient to reduce the formation of pulmonary edema, reduce mortality or attenuate hyperoxic lung injury. These experiments suggest that a number of other mediators may be involved in the hyperoxic lung injury process and that the functional inhibition of a portion of the arachidonic acid cascade was not sufficient to either prevent or attenuate hyperoxic lung injury in newborn rabbits.
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PMID:Evaluation of a leukotriene receptor antagonist in prevention of hyperoxic lung injury in newborn rabbits. 131 78

Prenatal dexamethasone (DEX) treatment is known to accelerate the maturation of both the surfactant system and the fetal lung antioxidant enzyme (AOE) system (Frank L, Lewis P, Sosenko IRS: Pediatrics 75:569-574, 1985). Because of this stimulatory effect of prenatal DEX on the normal late gestational development of the AOE system, we questioned whether this treatment might have a salutary effect on the ability of the newborn rat to tolerate early and prolonged exposure to hyperoxia, inasmuch as the AOE are the primary lung defensive system against high O2 challenge. In nine experiments with term newborn rats in greater than 95% O2, the composite percentage of survival was significantly greater in the prenatal DEX pups at all time periods in hyperoxia from 7 d [control pups, 67 of 94 (71%); prenatal DEX, 96 of 99 (97%)] to 14 d [controls, 10 of 32 (31%); prenatal DEX, 18 of 33 (55%)] (p less than 0.01). In addition to survival per se, the prenatal DEX pups showed significantly decreased lung wet weight/dry weight ratios, pathologic evidence of pulmonary edema, and lung conjugated dienes versus the O2 control newborn group. Of the many comparative parameters examined, the major difference found between the two groups was in the pulmonary AOE responses to hyperoxia. By 2 d in hyperoxia, the prenatal DEX rat pups showed significantly elevated superoxide dismutase, catalase, and glutathione peroxidase activities compared to air control pups, and at 4 and 7 d in O2 the AOE levels were consistently greater in the DEX group than the AOE responses in the control O2 pups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prenatal dexamethasone treatment improves survival of newborn rats during prolonged high O2 exposure. 150 13

A major function of the alveolar epithelium is to keep the airspace free of fluid and preserve gas exchange. Since Na-K-ATPase is believed to be important in this process, we hypothesized that Na-K-ATPase in the rat lung would increase in response to acute lung injury with pulmonary edema. Na-K-ATPase localization, mRNA expression, and protein levels were determined in hyperoxic lung injury. Adult male rats were exposed to greater than 97% oxygen for 60 h followed by recovery in room air. At 60 h of hyperoxia, the wet-to-dry lung weights increased, consistent with edema. Within the alveolar capillary region, the sodium pump remained localized to the type II cell basolateral membrane by immunocytochemistry. By Northern blot analysis, the level of total lung mRNA expression of the alpha 1- and beta-subunits of Na-K-ATPase increased three- to fourfold during hyperoxia compared with unexposed rats. Total lung Na-K-ATPase membrane protein, visualized with a Western blot technique, appeared to increase by 24 h of hyperoxic insult when compared with levels in unexposed animals. The increase in sodium pump gene expression that occurs during hyperoxic insult, followed by an increase in sodium pump membrane protein, suggests that type II cells increase their Na-K-ATPase synthesis as an early response to pulmonary edema and/or hyperoxia.
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PMID:Upregulation of rat lung Na-K-ATPase during hyperoxic injury. 165 77

Lung structure and function, and the effect of surfactant replacement, were studied in three animal models of adult respiratory distress syndrome (ARDS): surfactant depletion by repeated lung lavage, proteinaceous pulmonary edema induced by prolonged exposure to hyperoxia, and inoculation with hybridoma making an antibody to the hydrophobic surfactant-associated protein, SP-B. Surfactant replacement therapy restored normal gas exchange in respiratory failure induced by repeated lung lavage but was ineffective in animals with severe lung parenchymal lesions induced by hyperoxia or antibody to SP-B. Lung edema fluid from animals exposed to hyperoxia inhibited surfactant function in a concentration-dependent manner. These observations indicate that, in experimental ARDS, the effect of surfactant replacement depends on the type of animal model and, especially, on the degree of lung injury present at the time of therapy.
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PMID:Surfactant inactivation and surfactant replacement in experimental models of ARDS. 192 24

Reactive oxygen species are a major cause of damage occurring in ischemic tissue after reperfusion. During reperfusion transitional metals such as iron are required for reactive oxygen species to mediate their major toxic effects. Xanthine oxidase is an important source of reactive oxygen species during ischemia-reperfusion injury, but not in all organs or species. Because cytochrome P-450 enzymes are an important pulmonary source of superoxide anion (O2-.) generation under basal conditions and during hyperoxia, and provide iron catalysts necessary for hydroxyl radical (.OH) formation and propagation of lipid peroxidation, we postulated that cytochrome P-450 might have a potential role in mediating ischemia-reperfusion injury. In this report, we explored the role of cytochrome P-450 enzymes in a rabbit model of reperfusion lung injury. The P-450 inhibitors 8-methoxypsoralen, piperonyl butoxide, and cimetidine markedly decreased lung edema from transvascular fluid flux. Cimetidine prevented the reperfusion-related increase in lung microvascular permeability, as measured by movement of 125I-albumin from the vascular space into lung water and alveolar fluid. P-450 inhibitors also prevented the increase in lung tissue levels of thiobarbituric acid reactive products in the model. P-450 inhibitors did not block enhanced O2-. generation by ischemic reperfused lungs, measured by in vivo reduction of succinylated ferricytochrome c in lung perfusate, but did prevent the increase in non-protein-bound low molecular weight chelates of iron after reperfusion. Thus, cytochrome P-450 enzymes are not likely a major source of enhanced O2-. generation, but serve as an important source of iron in mediating oxidant injury to the rabbit lung during reperfusion. These results suggest an important role of cytochrome P-450 in reperfusion injury to the lung and suggest potential new therapies for the disorder.
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PMID:Role of cytochrome P-450 in reperfusion injury of the rabbit lung. 217 18

The Fischer rat is known for its susceptibility to develop liver necrosis when challenged with paraquat (Smith et al., J. Pharmacol. Exp. Ther. 235: 172-177, 1985). We postulated that other organs, specifically the lung, may also be more susceptible to injury and examined whether lungs from Fischer (F) rats were injured more easily when challenged with active oxygen species than Sprague-Dawley (SD) rat lungs. We aimed to investigate whether increased susceptibility to oxidant injury was related to differences in lung antioxidant defenses. Perfused lungs from both rat strains were challenged by addition of H2O2 to the perfusate or by short-term hyperoxic ventilation. To assess nonoxidant modes of lung injury, we examined lung responses after exposure to protamine sulfate or neutrophil elastase. Intravascular H2O2 or 3 h in vitro hyperoxia caused lung edema in F but not SD rats, and elastase injured F rat lungs more than the lungs from SD rats. Protamine, however, injured the lungs from both strains to a similar degree. Catalase, but not superoxide dismutase or allopurinol, protected F rat lungs against edema, resulting from 3 h in vitro hyperoxia. The lung homogenate levels for reduced glutathione or conjugated dienes and the activities of lung tissue catalase, glutathione peroxidase, and cytochrome P-450 were not different between the two strains. Lung tissue ATP levels, however, were lower in F than in SD rats. Although the F rat strain appears to have an altered oxidant-antioxidant defense balance, the exact cause of the greater susceptibility to oxidant stress of the F rat strain remains elusive.
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PMID:Lung injury in Fischer but not Sprague-Dawley rats after short-term hyperoxia. 226 Jun 76

Rats were exposed to 100% oxygen for up to 60 h to determine early changes in lung permeability leading to the development of pulmonary edema. The time course of development of increased solute flux was assessed by the clearance of 99mTc-labeled diethylenetriamine pentaacetate (99mTc-DTPA) from the lung and the accumulation of 125I-labeled albumin (125I-albumin) in the lung. These end points were related to the development of pulmonary edema by the measurement of the wet-to-dry weight ratio of the lung and the weight of fluid in the pleural cavity. No significant changes occurred until 48 h of hyperoxia, when sharp increases in both indexes of lung permeability and wet-to-dry weight ratio occurred. By 60 h of exposure, pleural effusions had developed. The volume of this effusion was significantly correlated to both 99mTc-DTPA clearance and 125I-albumin flux.
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PMID:Time course of changes in lung permeability and edema in the rat exposed to 100% oxygen. 226 77

In a pioneering application of proton Magnetic Resonance Imaging (MRI), lung edema has been monitored in vivo in Zn-deficient rats exposed to 85% oxygen. Dietary Zn appears to play a role in protecting against hyperoxia-induced lung damage.
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PMID:MRI detection of hyperoxia-induced lung edema in Zn-deficient rats. 227 31

In spite of the development of various antibiotics, management of elderly patients with pneumonia remains an important problem. It is suggested that adult respiratory distress syndrome (ARDS) and disseminated intravascular coagulation (DIC) often occur in elderly patients with pneumonia. Although neutrophils are suggested to be involved in the genesis of these conditions, details remain unknown. We demonstrated that a highly cytotoxic substance, 9,10-epoxy-12-octadecenoate, is biosynthesized from linoleate by human neutrophils, thus it was named leukotoxin. Leukotoxin was detected in lung lavages from patients with ARDS. In these lung lavages, increases in albumin concentration and angiotensin converting enzyme (ACE) activity were also observed. Similar results were observed in lung lavages from rats after exposure to hyperoxia for 60 hours in an experimental model of ARDS. Intravenous administration of leukotoxin (100 mumol/kg) caused lung edema. Albumin concentration and ACE activity were increased in lung lavages of rats receiving leukotoxin. In contrast, these changes were not observed in rats administered with linoleate. Furthermore, administration of leukotoxin (100 mumol/kg) caused coagulation abnormality, i.e., increase in fibrin-fibrinogen degradation products, decrease in fibrinogen, and prolongation of activated partial thromboplastin time and prothrombin time. Administration of linoleate did not induce these changes. It is indicated that O2- was produced by respiratory burst enzyme located in neutrophil plasma membrane, and that hydroxyl radicals derived from O2- by Fenton reaction were responsible for leukotoxin synthesis. From our results, leukotoxin, a product of hydroxyl radicals and linoleate, might be responsible for the genesis of ARDS and DIC.
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PMID:[Leukotoxin and pulmonary injury]. 238 90


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